metaforce/DataSpec/DNAMP2/MREA.hpp

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#ifndef __DNAMP2_MREA_HPP__
#define __DNAMP2_MREA_HPP__
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#include "../DNACommon/DNACommon.hpp"
#include "CMDLMaterials.hpp"
#include "CSKR.hpp"
namespace Retro
{
namespace DNAMP2
{
struct MREA
{
class StreamReader : public Athena::io::IStreamReader
{
struct BlockInfo : BigDNA
{
DECL_DNA
Value<atUint32> bufSize;
Value<atUint32> decompSize;
Value<atUint32> compSize;
Value<atUint32> secCount;
};
std::vector<BlockInfo> m_blockInfos;
size_t m_compBufSz;
std::unique_ptr<atUint8[]> m_compBuf;
size_t m_decompBufSz;
std::unique_ptr<atUint8[]> m_decompBuf;
Athena::io::IStreamReader& m_source;
atUint64 m_blkBase;
atUint32 m_blkCount;
atUint32 m_totalDecompLen = 0;
atUint32 m_pos = 0;
atUint32 m_nextBlk = 0;
atUint32 m_posInBlk = 0;
atUint32 m_blkSz = 0;
void nextBlock();
public:
StreamReader(Athena::io::IStreamReader& source, atUint32 blkCount);
void seek(atInt64 diff, Athena::SeekOrigin whence);
atUint64 position() const {return m_pos;}
atUint64 length() const {return m_totalDecompLen;}
atUint64 readUBytesToBuf(void* buf, atUint64 len);
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void writeDecompInfos(Athena::io::IStreamWriter& writer) const;
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};
struct Header : BigDNA
{
DECL_DNA
Value<atUint32> magic;
Value<atUint32> version;
Value<atVec4f> localToWorldMtx[3];
Value<atUint32> meshCount;
Value<atUint32> sclyLayerCount;
Value<atUint32> secCount;
Value<atUint32> geomSecIdx;
Value<atUint32> sclySecIdx;
Value<atUint32> scgnSecIdx;
Value<atUint32> collisionSecIdx;
Value<atUint32> unkSecIdx;
Value<atUint32> lightSecIdx;
Value<atUint32> emptySecIdx;
Value<atUint32> pathSecIdx;
Value<atUint32> unk2SecIdx;
Value<atUint32> unk3SecIdx;
Value<atUint32> egmcSecIdx;
Value<atUint32> compressedBlockCount;
Seek<12, Athena::Current> align1;
Vector<atUint32, DNA_COUNT(secCount)> secSizes;
};
struct MeshHeader : BigDNA
{
DECL_DNA
struct VisorFlags : BigDNA
{
DECL_DNA
Value<atUint32> flags;
enum ThermalLevel
{
ThermalCool,
ThermalHot,
ThermalWarm
};
static const char* GetThermalLevelStr(ThermalLevel t)
{
switch (t)
{
case ThermalCool: return "COOL";
case ThermalHot: return "HOT";
case ThermalWarm: return "WARM";
default: break;
}
return nullptr;
}
bool disableEnviro() const {return flags >> 1 & 0x1;}
void setDisableEnviro(bool v) {flags &= ~0x2; flags |= v << 1;}
bool disableThermal() const {return flags >> 2 & 0x1;}
void setDisableThermal(bool v) {flags &= ~0x4; flags |= v << 2;}
bool disableXray() const {return flags >> 3 & 0x1;}
void setDisableXray(bool v) {flags &= ~0x8; flags |= v << 3;}
ThermalLevel thermalLevel() const {return ThermalLevel(flags >> 4 & 0x3);}
void setThermalLevel(ThermalLevel v) {flags &= ~0x30; flags |= v << 4;}
const char* thermalLevelStr() const {return GetThermalLevelStr(thermalLevel());}
} visorFlags;
Value<atVec4f> xfMtx[3];
Value<atVec3f> aabb[2];
};
static bool Extract(const SpecBase& dataSpec,
PAKEntryReadStream& rs,
const HECL::ProjectPath& outPath,
PAKRouter<PAKBridge>& pakRouter,
const DNAMP1::PAK::Entry& entry,
bool,
std::function<void(const HECL::SystemChar*)>);
};
}
}
#endif